Suibel Schuppner Office of Nuclear Energy U.S. Department of Energy Advanced Sensors and Instrumentation Program Overview October 29, 2020
Suibel SchuppnerOffice of Nuclear Energy
U.S. Department of Energy
Advanced Sensors and InstrumentationProgram OverviewOctober 29, 2020
energy.gov/ne2
Office of Nuclear Energy
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NE-51.1Enabling
Technologies TeamMelissa Bates, Acting Team Leader
NE-5DAS for Reactor Fleet and Advanced Reactor Deployment
Alice Caponiti, Deputy Assistant SecretaryMichael Worley, Associate Deputy Assistant Secretary
Tim Beville, Acting ARDP Program (Demos)
NE-52Office of Nuclear Reactor Deployment
Thomas Sowinski, Director
NE-52.1 Reactor Optimization
and Modernization TeamAlison Hahn, Team Leader
NE-52.2 Advanced ReactorDevelopment Team
Janelle Eddins, Team Leader
NE-51.2University and
Competitive Research TeamAaron Gravelle, Team Leader
• Nuclear Energy University Program (NEUP)
• Integrated University Program (IUP)• Research Reactor Infrastructure (RRI)• Small Business Innovation Research
(SBIR) and Small Business Technology Transfer (STTR)
• Gateway for Accelerated Innovation in Nuclear (GAIN)
• Advanced Nuclear Industry Funding Opportunity (Industry FOA)
• Technology Commercialization Fund (TCF)
• Light Water Reactor Sustainability (LWRS)
• Advanced Small Modular Reactor R&D
• Integrated Energy Systems (IES)• Nuclear Cybersecurity • Advanced Reactors Safeguards
(ARS)
• Sodium-Cooled Fast Reactor• Gas-Cooled High-Temperature
Reactors• Molten Salt Reactors• Microreactors• National Reactor Innovation Center
(NRIC)• Risk Reduction• Advanced Reactor Regulatory
Development
Reactor Fleet and Advanced Reactor Deployment (NE-5)
NE-51Office of Nuclear Energy Technologies
Suibel Schuppner, Director
• Advanced Sensors and Instrumentation (ASI)
• Advanced Methods for Manufacturing (AMM)
• Nuclear Energy Advanced Modeling and Simulation (NEAMS)
• Nuclear Science User Facilities (NSUF)
• Transformational Challenge Reactor (TCR)
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Federal Program Manager: Melissa [email protected]
New Advanced Sensors and Instrumentations Management
National Technical Director: Pattrick [email protected]
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Develop advanced sensors and I&C that address critical technology gaps for monitoring and controlling existing and advanced reactors and supporting fuel cycle development
VisionMissionNEET ASI Research results in advanced sensors and I&C technologies that are qualified, validated, and ready to be adopted by the nuclear industry
Advanced Sensors and Instrumentation (ASI) Program
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Sensors andInstrumentation
Advanced ControlSystems
Big Data, MachineLearning, Artificial
IntelligenceCommunication
Enable nearreal-time controlof plant or experiments process variables to enhance performance
Reliable, cost-effective, real-time, accurate, and high-resolution measurement of the performance of existing and advanced reactors core and plant systems
Machine learningand artificial intelligenceprocesses to enable semi-autonomous operation and maintenance by design
Resilient, real-time transmission of sufficient amount of data for online monitoring and advanced data analytics
Strategic ASI R&D Areas
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TRL1
Foundational Developmental Validation and Demonstration Commercialization
Technology Commercialization Funds
R&D Programs Applications
Basic Technology Research
Technology Development
I&C System Development
I&C System Test, Deployment, Operation
Technology Demonstration
Research to Prove Feasibility
SBIR Phase I Phase II
I-FOA Pathway 2Pathway 3 Pathway 1
CINR NSUF-1.1NEET-2
ASI Directed Research Activities
TRL2
TRL3
TRL4
TRL5
TRL6
TRL7
TRL8
TRL9
Mec
hani
smMetrics: ASI Research Progression
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• Consolidated Innovative Nuclear Research (CINR)– Nuclear Energy University Program (NEUP)– Nuclear Energy Enabling Technologies (NEET)– Nuclear Science User Facilities (NSUF)
• Small Business Innovation Research (SBIR) and Small Business Technology Transfer (STTR)– Advanced Technologies for Nuclear Energy– Phase I Release 2
• U.S. Industry Opportunities for Advanced Nuclear Technology Development (DE-FOA-0001817)
• Gateway for Accelerated Innovation in Nuclear (GAIN) Vouchers
https://gain.inl.gov
NE Funding Opportunities
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• University-led Nuclear Energy University Programs (NEUP) Projects• Program and Mission Supporting
• University-, or National Laboratory-led Nuclear Energy Enabling Technologies (NEET) Crosscutting Projects• Advanced Sensors and Instrumentation• Advanced Methods for Manufacturing
• University-, National Laboratory-, or Industry-led Nuclear Science User Facilities (NSUF)• NSUF-1.1: Testing of advanced materials for
sensors and advanced sensors for Nuclear applications
• CINR Due dates: • September 16, 2020: NSUF Letter of Intent• September 30, 2020: R&D/NSUF Pre-Applications• November 12, 2020: NSUF Preliminary Statement
of Work• January 22, 2021: NSUF Final Statement of Work• February 11, 2021: Full R&D Applications• February 11, 2021: IRP Applications
www.neup.gov
FY2020 Consolidated Innovative Nuclear Research (CINR) Funding Opportunity Announcement (FOA)
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FY Project Title Principal Investigator2017 Integrated silicon/chalcogenide glass hybrid plasmonic sensor for monitoring of temperature in nuclear facilities Maria Mitkova,
Boise State University
2017 High temperature embedded/integrated sensors (HiTEIS) for remote monitoring of reactor and fuel cycle systems Xiaoning Jiang, North Carolina State University
2017 3-D Chemo-Mechanical Degradation State Monitoring, Diagnostics and Prognostics of Corrosion Processes in Nuclear Power Plant Secondary Piping Structures
Douglas Adams, Vanderbilt University
2017 Versatile Acoustic and Optical Sensing Platforms for Passive Structural System Monitoring Gary Pickrell, Virginia Polytechnic Institute and State University
2018 Process-Constrained Data Analytics for Sensor Assignment and Calibration Richard Vilim, Argonne National Laboratory
2018 Development of optical fiber- based gamma thermometer and its demonstration in a University Research Reactor using statistical data analytic methods to infer power distributions from gamma thermometer response
Thomas Blue, The Ohio State
2019 Design of Risk Informed Autonomous Operation for Advanced Reactor Michael Golay, Massachusetts Institute of Technology
2019 Cost-Benefit Analyses through Integrated Online Monitoring and Diagnostics David Grabaskas, Argonne National Laboratory
2019 Acousto-optic Smart Multimodal Sensors for Advanced Reactor Monitoring and Control Michael Larche, Pacific Northwest National Laboratory
2019 Context-Aware Safety Information Display for Nuclear Field Worker Pingbo Tang, Arizona State University
2019 Advanced Online Monitoring and Diagnostic Technologies for Nuclear Plant Management Operation, and Maintenance Daniel Cole, University of Pittsburgh
2020 Design and Prototyping of Advanced Control Systems for Advanced Reactors Operating in the Future Electric Grid Roberto Ponciroli, Argonne National Laboratory
2020 Adaptive Control and Monitoring Platform for Autonomous Operation of Advanced Nuclear Reactors Athi Varuttamaseni, Brookhaven National Laboratory
2020 Development of Sensor Performance Model of Microwave Cavity Flow Meter for Advanced Reactor High Temperature Fluids
Alexander Heifetz, Argonne National Laboratory
NEET-ASI Current CINR Awards
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FY Project Title Principal Investigator2018 Irradiation Behavior of Piezoelectric Materials for Nuclear Reactor Sensors Marat Khafizov,
Ohio State University
2018 High-performance nanostructured thermoelectric materials and generators for in-pile power harvesting Yianliang Zhang,University of Notre Dame
2019 Irradiation of optical components of in-situ laser spectroscopic sensors Igor Ivanovic, University of Michigan
2019 High Fluence Active Irradiation and Combined Effects Testing of Sapphire Optical Fiber Distributed Temperature Sensors
Josh Daw, Idaho National Laboratory
2020 Irradiation of Sensors and Adhesive Couplants for Application in LWR Primary Loop Piping and Components James Wall, EPRI
NSUF Current CINR Awards with ASI R&D funds
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• Competitive awards for small businesses only• Winners keep the rights to any technology developed
and are encouraged to commercialize the technology• Funded by federal R&D budgets set asideNE funds SBIR and STTR projects• Office of Nuclear Energy Section
Phase I Release 2• Topics Issued: November 09, 2020• Webinar: November 16, 2020• FOA Issued: December 14, 2020• LOI Due: January 2, 2021• Application Due: February 22, 2021
Phase II Release 2 (only Phase I awardees are eligible to apply)• FOA Issued: March 01, 2021• LOI Due: March 31, 2021• Application Due: April 20, 2021
www.science.energy.gov/sbir
Small Business Innovation Research (SBIR) and Small BusinessTechnology Transfer (STT): Advanced Technologies for Nuclear Energy
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FY Project Title Principal InvestigatorPHASE II
2016 High Temperature Operable, Harsh Environment Tolerant Flow Sensors For Nuclear Reactor Applications Jon Lubbers, Sporian Microsystems, Inc2017 A robust wireless communication system for harsh environment including nuclear facilities Richard Twogood, Dirac Solutions Inc
2018 Distributed Antenna System for Wireless Data Communication in Nuclear Power Plants Chad Kiger, Analysis & Measurement Serv Corp
2018 Fiber-Optic Sensor for Simultaneous Measurement of Temperature and Pressure Derek Rountree, Luna Innovations Inc
2019 Metamaterial Void Sensor for Fast Transient Testing Mark Roberson, Goldfinch Sensor Technologies and Analytics LLC
2019 Health Monitoring of Digital I&C Systems using Online Electromagnetic Measurements Chad Kiger, Analysis & Measurement Serv Corp
2019 Fault Detection of Digital Instrumentation and Control Systems using Integrated Electromagnetic Compatibility and Automated Functional Testing
Greg Morton, Analysis & Measurement Serv Corp
2020 Development of Radiation Endurance Ultrasonic Transducer for Nuclear Reactors Uday Singh, X-wave Innovations Inc
2020 A Radiation and Temperature-Tolerant Plasma Contact Microphone for Sensing Ultrasonic Acoustic Emissions in Fatiguing Metal Structures Johan Carlsson, RadiaSoft LLC
PHASE I
2020 Advanced Laser Ultrasonic Sensor for Fuel Rod Characterization Marvin Kelin, Intelligent Optical Systems, Inc
2020 Printed Sensors for Monitoring Reactor Health Richard Fink, Applied Nanotech, Inc
2020 Hybrid Diamond Detector for Nuclear Reactor Monitoring Valerly Konovalov, Applied Diamond, Inc
SBIR Current Awards
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U.S. Industry Opportunities for Advanced Nuclear Technology Development (DE-FOA-0001817) Amendment 008 (Sep. 2020)§ The U.S. Department of Energy (DOE) is soliciting proposals for cost-shared projects to develop innovative industry-driven reactor designs and technologies to advance nuclear power in America.§ This funding opportunity is open for a five-year period. § Applications will be accepted on a year-round basis with selections made twice a year.
§ Due Date: February 28 at 5:00:00 p.m. ET§ Due Date: August 31 at 5:00:00 p.m. ET
§ Open to U.S. companies with the expectation that resulting products will be manufactured in U.S. after reaching commercialized state.§ Industry cost share will be between 20-50%, depending on the nature of the proposal
Gateway for Accelerated Innovation in Nuclear (GAIN) Vouchers§ Provide funds to assist industry applicants seeking access to world class expertise and capabilities available across the U.S. DOE Complex
§ Due Date: November 2 at 5:00:00 p.m. ET
https://www.energy.gov/ne/services/funding-opportunities
Pathway DOE
Funding Range
Cost Share Duration
First-of-a-Kind (FOAK) Nuclear Demonstration Readiness Projects
$10M-$40M 50/50 3 years
Advanced Reactor Development Projects
$500K-$10M 80/20 2 years
Regulatory Assistance Grants
$50K-$500K
80/20 or50/50 1 year
https://gain.inl.gov
U.S. Industry Funding Opportunities
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FY GAIN Voucher Title Recipient
2017 Radiation Aging of Nuclear Power Plant Components Analysis & Measurement Services Corp.Knoxville, TN
2017 Human Factors Engineering for the Move to Digital Control Systems –Improved Strategies for Operations
GSE Systems Inc.Sykesville, MD
2018 Advancement of Instrumentation to Monitor IMSR® Core Temperature and Power Level Terrestrial Energy USANew York, NY
2018 Electroanalytical Sensors for Liquid Fueled Fluoride Molten Salt Reactor ThorCon,Stevenson, WA
2019 Testing of Instrumentation and Control Sensors and Cables for Small Modular Reactors Analysis & Measurement Services Corp.Knoxville, TN
2020 On-Line Lead/Water Heat Exchanger Sensor/System Feasibility Neutroelectric, LLCWilliamstown, NJ
FY Industry-FOA Project Title Recipient
2018 Resolving the Regulatory Issues with Implementation of Online Monitoring Technologies to Extend the Calibration Intervals of Process Instruments in Nuclear Power Plants
Analysis & Measurement Services Corp.Knoxville, TN
2019 Passive Radio Frequency Tags and Sensors for Process Monitoring in Advanced Reactors
Dirac Solutions Inc.Pleasanton, CA
2019 Application of Machine Learning for Enhanced Diagnostic and Prognostic Capabilities of Nuclear Power Plant Assets
Blue Wave Capital and Consulting, DBA Blue Wave AI Labs, Celebration, FL
Industry I&C Current Awards
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• Improvements and advancements in ASI technologies will Ø enable advances in nuclear reactor and fuel cycle system developmentØ enhance economic competitiveness for nuclear power plants, andØ promote a high level of nuclear safety
• NEET-ASI research produces concepts, techniques, capabilities, and equipment that are or can be demonstrated in simulated or laboratory test bed environments representative of nuclear plant systems or fuel cycle systems
• Innovative and crosscutting research is funded through competitive, peer-reviewed, solicitations and directed work
I&C technologies are a vital key to enabling the expansion of clean, safe, and economical nuclear power
Summary
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Thank You!